Abstract: A method for making a polymeric microfluidic structure in which two or more components (layers) of the microfluidic structure are fixedly bonded or laminated with a weak solvent bonding agent, particularly acetonitrile or a mixture of acetonitrile and alcohol. In an aspect, acetonitrile can be used as a weak solvent bonding agent to enclose a microstructure fabricated in or on a non-elastomeric polymer such as polystyrene, polycarbonate, acrylic or other linear polymer to form a three-dimensional microfluidic network. The method involves the steps of wetting at least one of the opposing surfaces of the polymeric substrate components with the weak solvent bonding agent in a given, lower temperature range, adjacently contacting the opposing surfaces, and thermally activating the bonding agent at a higher temperature than the lower temperature range for a given period of time with RF or ultrasonic energy.

Abstract: Plastic microfluidic structures having a substantially rigid diaphragm that actuates between a relaxed state wherein the diaphragm sits against the surface of a substrate and an actuated state wherein the diaphragm is moved away from the substrate. As will be seen from the following description, the microfluidic structures formed with this diaphragm provide easy to manufacture and robust systems, as well readily made components such as valves and pumps.

Abstract: A turbine generator having one or more wind turbines for generating energy and a series of plates located above and below each turbine for focusing and converging the wind inwardly. The plates are aerodynamically-designed to converge the wind onto the turbine and provide a strong wind current. The turbine generator is incorporated into a light fixture to provide self-sustaining light energy. Solar panels may be provided in conjunction with the turbine generator to provide an additional source of energy.

Abstract: Embodiments of the invention relate to natural and synthetic inositolphospholipid (IPL) materials, their preparation and applications. They provide compositions of the parent IPL comprising phosphatidylinositol (PI), PI-phosphates (phosphoinositides) and derivatives and analogues, and a process for their production starting from natural IPL. The embodiments further provide functional derivatives of PI for biomedical applications including a platform for drug design and delivery to therapeutic targets in the phosphoinositide mediated cellular signaling and allied cascades. The embodiments pertain to IPL having absolute stereo-structure. The embodiments further pertain to unique IPL and PI product compositions for defined applications, particularly pharmaceutical compositions for prophylaxis and treatment of diseases related to aberrant cellular and nuclear signaling mediated by PI and PI derived phosphates, and associated phosphoinositide specific enzymes including PI-PLC and PI 3-kinase.

Abstract: The present invention is a man-portable counter-mortar radar (MCMR) radar system that detects and tracks enemy mortar projectiles in flight and calculates their point of origin (launch point) to enable and direct countermeasures against the mortar and its personnel. In addition, MCMR may also perform air defense surveillance by detecting and tracking aircraft, helicopters, and ground vehicles. MCMR is a man-portable radar system that can be disassembled for transport, then quickly assembled in the field, and provides 360-degree coverage against an enemy mortar attack.

Abstract: A fluid dispensing system includes a pump assembly for pressurizing a low cost container, the container non reversibly connected to a coupler module. A wand assembly is releasably connected to the coupler module. A discharge conduit fluidly connects the wand assembly to the container to displace a check valve in the pump assembly to permit flow from the pump assembly. The wand assembly includes a grip body slideable relative to the discharge conduit between a retracted storage position and an extended operable position.

Abstract: A computer system for simulating performance of transmission lines, such as on-chip interconnects. The simulation uses direct extraction of poles, in contrast to conventional methods using poles obtained by a truncated transfer function. Using the directly extracted poles, far end response characteristic(s) can be determined to thereby aid in design of circuits using transmission lines. The far end response characteristic(s) that may be determined based on the directly extracted poles include, but are not necessarily limited to, frequency dependent effects, step response, ramp response, delay, 50% delay, rise time, 10% to 90% rise time, overshoot and normalized overshoot. A CAE tool designer and/or CAE tool user may decide how many pole pairs to directly extract to achieve a desired balance between computation resources required and resulting precision in the determination of far end response characteristic(s).

Abstract: A computer implemented method and system for comparative analysis of business processes, in particular for process maturity evaluation. A process vitality index (PVI) is mapped onto a binary decision tree that provides unambiguous, YES/NO questions at its nodes. A user is guided by these questions. The tree provides the minimum required steps for an evaluation based on common process characteristics. At least two of the nodes of the binary decision tree are interlinked in view of interdependencies between categories to enforce specific YES/NO inputs and thus provide an automated consistency check at each node.

Abstract: A light guide includes a light guide layer having a transversely oriented side-end surface that forms a primary output aperture (exit) for light traveling in a forward propagation direction out of the end surface of the light guide (for, e.g., CPV applications) and, which forms a primary input aperture (entrance) for light traveling in a rearward propagation direction into the end surface of the light guide (for, e.g., illuminator applications), and a first plurality of light injection elements stepped (staggered) in a forward light propagation direction in a first plane along lines parallel to the side-end surface or clocked (tilted) about a y-axis in a z-axis-light propagation direction in a respective first plane, wherein the light injection elements are disposed along parallel lines normal to the side-end surface. The light guide component may further comprise at least a second plurality of light injection elements stepped in at least second plane.